CN103925664B - A kind of water air-conditioning system of header box coupling intelligent control box - Google Patents
A kind of water air-conditioning system of header box coupling intelligent control box Download PDFInfo
- Publication number
- CN103925664B CN103925664B CN201410145134.2A CN201410145134A CN103925664B CN 103925664 B CN103925664 B CN 103925664B CN 201410145134 A CN201410145134 A CN 201410145134A CN 103925664 B CN103925664 B CN 103925664B
- Authority
- CN
- China
- Prior art keywords
- intelligent control
- control box
- intelligent
- header box
- box
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Other Air-Conditioning Systems (AREA)
Abstract
The invention discloses a kind of water air-conditioning system of header box coupling intelligent control box, comprise cistern and intelligent control box under solar energy heating water tank, header box, living land, described solar energy heating water tank, header box and intelligent control box form water air-conditioning heating system; Under described header box, living land, cistern and intelligent control box form water air-conditioning refrigeration system, and system makes full use of the design of cistern under living land in the time of refrigeration, make the retaining cool in summer and warm in winter of leaving unused at ordinary times obtain utilizing fully. The internal structure design of intelligent control box, has effectively strengthened the ability that heats or freeze of system of the present invention, where necessary, and can be by the working in coordination of header box and intelligent control box, the effect that reaches best refrigeration or heat.
Description
Technical field
The present invention relates to a kind of water air-conditioning, relate in particular to a kind of cold-hot water air conditioning system being connected with fire-fighting cistern.
Background technology
Along with social development, people's material and cultural life has obtained significant raising, and air-conditioning improves as oneThe housed device of people's lives condition, in city or rural area is all widely used. Scientist says that understanding is newThe energy and correctly use the energy, just means that understanding leads to following road. Natural resources and energy resources problem is day by day serious at present,In ensureing comfortable, health requirements, how effectively and reasonably to distribute, utilize resource, reduce conventional energy resource consumptionBecome the problem that people have to face. The develop rapidly of recent year market economy, the internal structure of enterprise, industry existsConstantly change, Market competition, is subject to the impact of relation between market supply and demand, and Chinese development of air conditioning industry is rapid, novel intelligentChange air-conditioning and dominate the market, its capacity is huge. Though and existing air-conditioning is ever-changing in appearance, but still can not change " changeLength of schooling is cold, heat " essential attribute, existing air-conditioning power consumption is large in addition, manufacturing cost is high, is installing and practicalIn process, also have some problems, such as outer machine in use can shift a large amount of heats to environment. Do not meet jointEnergy reduces discharging, the requirement of environmental protection.
The current commercial residential building overwhelming majority is designed with fire-fighting cistern, and fire-fighting cistern, all in idle state, does not have at ordinary timesThere is the effect of giving full play to it, belong to the one waste of resource.
Summary of the invention
Goal of the invention: in order to overcome the deficiencies in the prior art, the invention provides a kind of header box coupling Based Intelligent ControlThe water air-conditioning system of case, combines water air-conditioning system and fire-fighting cistern effectively, makes full use of slack resources, comesRealize the refrigeration of water air-conditioning and heat, and cost is low, power consumption is little, pollution-free and saving water resource.
Technical scheme: for achieving the above object, technical scheme of the present invention is as follows:
A water air-conditioning system for header box coupling intelligent control box, comprises solar energy heating water tank, header box and intelligence controlCase processed; On described solar energy heating water tank, be connected with respectively thermal source outlet pipe and thermal source return pipe, described thermal source outlet pipe passes throughThe first electronics stop valve is connected with header box, and described thermal source return pipe is connected with header box by the first circulating pump; Described remittanceStream case is connected with respectively low-temperature receiver outlet pipe and low-temperature receiver return pipe, and described low-temperature receiver outlet pipe is by under the second circulating pump and living landCistern connects, and described low-temperature receiver return pipe is connected with cistern under living land by the second electronics stop valve, described lifeBe communicated with filtering ponds with underground conservation pool, described filtering ponds are communicated with fire-fighting cistern; Above described fire-fighting cisternBe provided with rain row plash, described rain row plash enters the rainwater of collecting in fire-fighting cistern; To run through the side of connectionFormula is provided with heat exchange auxiliary tube in header box, and two ports of described heat exchange auxiliary tube are in communication with the outside respectively, described heat exchangeWherein one end of auxiliary tube is connected with one end of supply fan pipeline, and the other end of described supply fan pipeline is connected with supply fan,The other end of described heat exchange auxiliary tube is connected with one end of blast pipe, and the other end of described blast pipe accesses to intelligence controlIn case processed; In described intelligent control box, be provided with the first Intelligent three-way, rapid heating chamber, the second Intelligent three-way and make fastCold house, the bypass end of described the first Intelligent three-way is connected with the other end of described blast pipe; One of described the first Intelligent three-wayThe positive terminal of side is connected with one end of rapid heating chamber, and a side of the other end of described rapid heating chamber and the second Intelligent three-way justTerminal connects; The positive terminal of opposite side of described the first Intelligent three-way is connected with one end of fast-refrigerating chamber, described fast-refrigeratingThe other end of chamber is connected with the positive terminal of opposite side of the second Intelligent three-way; Bypass end and the exhaust fan of described the second Intelligent three-wayOne end of pipeline connects, and the other end of described exhaust fan pipeline is drawn intelligent control box and is connected with exhaust fan; Described supply fanAll be arranged on indoor with exhaust fan.
The water air-conditioning of native system is mainly made up of solar energy heating water tank, header box and intelligent control box, skilful on this basisBe combined with fire-fighting cistern wonderfully, make that water air-conditioning system is both intelligent to be realized the refrigeration of low energy consumption and heat, again abundant profitWith the water-holding capacity of idle fire-fighting cistern.
Further, in the outside of intelligent control box, the first temperature sensor is installed, described the first temperature sensor connectsThere is intelligent switch, indoor tubular type ceramic heating, the interior conduit air bag of being provided with of Fast Heating in described intelligent control box,Described tubular type ceramic heating is arranged on the periphery of interior conduit air bag, the signal output part of described the first temperature sensor and intelligenceThe signal input part of energy switch connects, the signal input part of the signal output part of described intelligent switch and tubular type ceramic heatingConnect. In the time that the first temperature sensor detects indoor temperature lower than a certain setting value, open tubular type by intelligent switchCeramic heating, heats to the air in interior conduit air bag.
Further, at indoor ice crystal bag water tank and the second temperature sensor, the described ice crystal of being provided with of described fast-refrigeratingIn bag water tank, be provided with curved cooling tube, the measuring junction of described the second temperature sensor passes in ice crystal bag water tank; Described secondThe signal output part of temperature sensor is connected with the signal input part of temperature detect switch (TDS), the signal output part of described temperature detect switch (TDS) withThe signal input part of buzzer connects. The temperature that fast-refrigerating chamber interior detected when the second temperature sensor is established higher than a certainWhen definite value, open buzzer by temperature detect switch (TDS), ice crystal bag water tank is changed in prompting.
Further, described heat exchange auxiliary tube is serially connected with submersible type cool-heat-exchanger. Described submersible type cool-heat-exchanger isRectangular box closed structure, at the vertical direction of described body structure and some mutually penetrating tubules that longitudinally distribute. DivingThe design of formula cool-heat-exchanger and installation, not only expanded the area of the cold and hot exchange of air, makes again the air entering simultaneouslyAir velocity has obtained buffering, greatly improves the effect of cold and hot exchange.
Further, described blast pipe is serially connected with pipe pressurizing fan, and described pipe pressurizing fan is connected with pressure sensor;The signal output part of described pressure sensor is connected with the signal input part of pipe pressurizing fan. The system that ensured is warm in confessionLittle, the noiselessness of vibratility, stable working in process of refrigerastion.
Beneficial effect:
1, the present invention by solar energy heating water tank provide thermal source and fire-fighting cistern through water treatment provide refrigeration water source andThermal source, thus complete the abundant cold and hot exchange of air, to compare with existing common air-conditioning, air-conditioning system of the present invention belongs toWater air-conditioning series, wind light weight is soft suitable, and long-time serviceability temperature is moderate, meets Natural Circulation refrigeration.
2, the present invention utilizes header box as excessive water tank, realizes the water circulation of system, is exactly in fact to have ensured water moneyCan not running off of source, has overcome the waste of existing water air-conditioning to water resource. Water air-conditioning system of the present invention can solve coolingProblem, with fresh air in again can holding chamber, the principle of absorbing heat by evaporation of water process be lowered the temperature, and the physics of employing fallsWarm therapy, thus the quality of room air improved.
Brief description of the drawings
The structural representation that accompanying drawing 1 is system of the present invention.
Accompanying drawing 2 is intelligent control box front view in system of the present invention.
Accompanying drawing 3 is the front view of header box in system of the present invention.
Accompanying drawing 4 is this bright system main device indoor distribution schematic diagram.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is further described.
As described in accompanying drawing 1,2,3 and 4, a kind of water air-conditioning system of header box coupling intelligent control box, comprises solar energy collectionBoiler 26, header box 27 and intelligent control box 1; On described solar energy heating water tank 26, be connected with respectively thermal source outlet pipe31 and thermal source return pipe 32, described thermal source outlet pipe 31 is connected with header box 27 by the first electronics stop valve 34, instituteStating thermal source return pipe 32 is connected with header box 27 by the first circulating pump 33.
According to relevant data introduction, one existing " water air-conditioning " is average per hour draws water one ton from underground. The present invention utilizesHeader box 27, as excessive water tank, is realized the water circulation of system, can ensure that like this water resource can not run off, and has overcome existingThere is the waste of water air-conditioning to water resource. Described header box 27 is connected with respectively low-temperature receiver outlet pipe 35 and low-temperature receiver return pipe 37, instituteState low-temperature receiver outlet pipe 35 and be connected with cistern under living land 14 by the second circulating pump 36, described low-temperature receiver return pipe 37Be connected cistern 14 and mistake under described living land with cistern under living land 14 by the second electronics stop valve 24Filter tank 40 is communicated with, and described filtering ponds 40 are communicated with fire-fighting cistern 41; Above described fire-fighting cistern 41, be provided withRain row plash, described rain row plash enters through filtering ponds 40 rainwater of collecting in fire-fighting cistern 41.
Arrange plash retaining in fire-fighting cistern 41 by rain at ordinary times, rainwater-collecting is carried out through filtering ponds 40 laterAfter filtration, enter the water source use as water air-conditioning system in cistern 14 under living land. And under living landWater temperature in cistern 14 meets the condition of " cool in summer and warm in winter ".
In header box 27, be provided with heat exchange auxiliary tube 4 in the mode that runs through connection, described heat exchange auxiliary tube 4 is serially connected with divingFormula cool-heat-exchanger 18, described submersible type cool-heat-exchanger 18 is rectangular box closed structure. At described body structureVertical direction and some mutually penetrating tubules that longitudinally distribute, and the outer wall of tubule and the top board of body structure, base plate and sidePlate adopts sealing to connect without leaking connected mode. Submersible type cool-heat-exchanger 18 is serially connected on heat exchange auxiliary tube 4, not onlyExpand the area of the cold and hot exchange of air, made again the air draught speed entering obtain buffering, greatly improved cold simultaneouslyThe effect of heat exchange. Two ports of described heat exchange auxiliary tube 4 are in communication with the outside respectively, its of described heat exchange auxiliary tube 4Middle one end is connected with one end of supply fan pipeline 10, and the other end of described supply fan pipeline 10 is connected with supply fan 9, instituteThe other end of stating heat exchange auxiliary tube 4 is connected with one end of blast pipe 15, and described blast pipe 15 is serially connected with pipe pressurizing fan43, the other end of described blast pipe 15 accesses in intelligent control box 1.
In described intelligent control box 1, be provided with the first Intelligent three-way 11, rapid heating chamber 38, the second Intelligent three-way 13 andFast-refrigerating chamber 39, the bypass end of described the first Intelligent three-way 11 is connected with one end of described blast pipe 15; Described firstThe positive terminal of one side of Intelligent three-way 11 is connected with one end of rapid heating chamber 38, the other end of described rapid heating chamber 38Be connected with the positive terminal of a side of the second Intelligent three-way 13; The positive terminal of opposite side of described the first Intelligent three-way 11 and quick systemOne end of cold house 39 connects, the positive terminal of opposite side of the other end of described fast-refrigerating chamber 39 and the second Intelligent three-way 13Connect; The bypass end of described the second Intelligent three-way 13 is connected with one end of exhaust fan pipeline 20, described exhaust fan pipeline 20The other end draw intelligent control box 1 and be connected with exhaust fan 19; Described supply fan 9 and exhaust fan 19 are all arranged on indoor.
Described base plate one side at header box is provided with draining valve, is mainly used in that (refrigeration transfers in the time of system conversion working procedureHeating or heating transfer refrigeration to), the remaining water of header box 27 can be discharged.
Native system is also provided with a gauge tap 29, the signal output part of this gauge tap 29 respectively with first in proper order pump 33,The first electronics stop valve 34, the second circulating pump 36, the second electronics stop valve 24, the first Intelligent three-way 11 and the second intelligenceThe input of threeway 13 connects. In the time that needs heat, by gauge tap 29, open the first circulating pump 33, the first electricitySub-stop valve 34, open the connectivity port that heats in the positive terminal of the first Intelligent three-way 11, open the second Intelligent three-way 13Positive terminal heat connectivity port, realize indoor heating (now the second circulating pump 36, the second electronics stop valve 24, theRefrigeration connectivity port in the positive terminal of one Intelligent three-way 11, the refrigeration connectivity port Jun Chu of the second Intelligent three-way 13 positive terminalsIn closed condition). In the time that needs freeze, by gauge tap 29, open the second circulating pump 36, the second electronics stop valve24, open the refrigeration connectivity port in the positive terminal of the first Intelligent three-way 11, open the system of the second Intelligent three-way 13 positive terminalsCold connectivity port, realizes indoor refrigeration (now the first circulating pump 33, the first electronics stop valve 34, the first Intelligent three-wayIn 11 positive terminals heat connectivity port, the second Intelligent three-way 13 positive terminals heat connectivity port all in closing shapeState).
The first temperature sensor 3 is installed in the outside of described intelligent control box 1 and is connected with intelligent switch 2, described in intelligenceIn control cabinet 1, be provided with rapid heating chamber 38, in described rapid heating chamber 38, be provided with tubular type ceramic heating 7, inPipeline air bag 21, the two ends of described interior conduit air bag 21 are connected with two ports of rapid heating chamber 38 respectively, described pipeFormula ceramic heating 7 is arranged on the periphery heating of interior conduit air bag 21, the signal output of described the first temperature sensor 3End is connected with the signal input part of intelligent switch 2, the signal output part of described intelligent switch 2 and tubular type ceramic heating 7Signal input part connect. In the time that the first temperature sensor detects indoor temperature lower than a certain setting value, by intelligenceSwitch 2 is opened tubular type ceramic heating 7, heats to the air in interior conduit air bag 21. When reaching a certain, temperature establishesWhen definite value, close tubular type ceramic heating 7. The setting of rapid heating chamber 38 critical heating-up temperatures can be passed through intelligent switch2 complete.
In described fast-refrigerating chamber 39, be provided with ice crystal bag water tank 28 and the second temperature sensor 12, described ice crystal Bao ShuiIn case 28, be provided with curved cooling tube 8, and two of curved cooling tube 8 turnover ports respectively with two of fast-refrigerating chamber 39Individual port connects, and the measuring junction of described the second temperature sensor 12 passes in ice crystal bag water tank 28; Described the second temperature passesThe signal output part of sensor 12 is connected with the signal input part of temperature detect switch (TDS) 5, the signal output part of described temperature detect switch (TDS) 5Be connected with the signal input part of buzzer 6. When the second temperature sensor 12 detects the temperature of 39 inside, fast-refrigerating chamberDuring higher than a certain setting value, by the autonomous buzzer 6 of opening of temperature detect switch (TDS) 5, ice crystal bag water tank 28 is changed in prompting. SystemUnder nominal situation, about about 48 hours, change greatly one time ice crystal bag water tank 28. Enable the critical refrigeration temperature in fast-refrigerating chamber 39The setting of degree can be set by temperature detect switch (TDS) 5.
Described system, in the time of normal use, in the time of refrigeration, is placed with ice in the ice crystal bag water tank 28 in fast-refrigerating chamber 39Brilliant bag, fills the ice crystal piece condensing in ice crystal bag. Water air-conditioning system of the present invention, needs to be equipped with two ice crystal bags, is used for moreChange use, ice crystal bag approximately can provide the cold about 48 hours. Experiment shows that the temperature of ice crystal bag is-14 degree,In high-efficiency insulated case, give free rein to change, 1 degree that every two hours rises, if having heat exchange with air-flow, temperature per hour1 degree rises.
The blast pipe 15 of described system airflow circulation line is connected in series pipeline force(d) (draft) fan 43, and pipe pressurizing fan 43 is connected with pressurePower sensor 25; The signal output part of described pressure sensor 25 is connected with the signal input part of pipe pressurizing fan 43.Described pressure sensor 25 is controlled pipeline increases duty and the rotating speed of fan 43; The survey of described pressure sensor 25When amount end stretches into and records ducted air pressure in feed channel lower than a certain setting value or higher than a certain setting value, intellectuality is openedOr close pipeline force(d) (draft) fan 43, can alleviate supply fan pipeline and exhaust fan pipe according to the rotating speed of adjusting force(d) (draft) fan 43The pipeline stream pressure producing under nominal situation is poor, the system that ensured like this vibratility in for warm process of refrigerastionLittle, noiselessness, stable working.
In described system heating process, between header box 27 and solar energy heating water tank 26, be to transmit by water circulating pipeHeat energy. In described cooling system process, between header box 27 and fire-fighting cistern 41, be transmit by water circulating pipe coldAmount. When native system work, from solar energy heating water tank 26, extract in advance a certain amount of water or retaining from living landIn pond 14, extract a certain amount of water and enter in header box 27, submergence heat exchange is auxiliary as much as possible to make water in header box 27Help pipe 4.
In the time that needs heat, from solar energy heating water tank 26, extract in advance a certain amount of water and enter in header box 27. LogicalCross gauge tap 29, open the first circulating pump 33, the first electronics stop valve 34, open the positive terminal of the first Intelligent three-way 11In heat connectivity port, the connectivity port that heats of opening the second Intelligent three-way 13 positive terminals. Now in header box 27Water via solar energy heating water tank 26 circulating-heatings, makes the water temperature in header box 27 meet pre-by the first circulating pump 33The demand heating, opens supply fan 9 and exhaust fan 19 (opening if desired pipeline force(d) (draft) fan 43), and room air is from enteringGas fan 9 enters, and after heat exchange auxiliary tube 4 and rapid heating chamber 38, arrives indoor reality by exhaust fan 19 circulating refluxsNow heat. If heating effect does not reach desired temperature on this basis, can be again by starting rapid heating chamber 38Interior tubular type ceramic heating 7 is realized auxiliary air and is heated.
In the time that needs freeze, first by header box draining valve 30, the remaining water in casing is discharged, and then use from lifeIn underground conservation pool 14, extracting a certain amount of water enters in header box 27. Described the first circulating pump 33, the first electronics cut-offThe connection that heats that heats connectivity port, the second Intelligent three-way 13 positive terminals in valve 34, the positive terminal of the first Intelligent three-way 11Port, now all in closed condition, simultaneously by gauge tap 29, is opened the second circulating pump 36, the second electronics cut-offValve 24, open the refrigeration connectivity port in the positive terminal of the first Intelligent three-way 11, open the second Intelligent three-way 13 positive terminalsRefrigeration connectivity port. Now, under living land, the water in cistern 14 passes through the second circulating pump 36 in header box 27Circulation, opens supply fan 9 and exhaust fan 19 (opening if desired pipeline force(d) (draft) fan 43), and room air is from supply fan 9Enter, air, behind heat exchange auxiliary tube 4 and fast-refrigerating chamber 39, arrives indoor realization by exhaust fan 19 circulating refluxsRefrigeration. Because the water temperature in cistern under living land 14 is lower, meet to a certain extent the demand of pre-refrigeration,This basis is upper if any further refrigeration demand, can place ice by the ice crystal bag water tank 28 in fast-refrigerating chamber 39Brilliant bag is realized auxiliary air refrigeration.
The tank material of described header box 27 and intelligent control box 1 all adopts fiberglass to make, in fast-refrigerating chamber 39The tank material of ice crystal bag water tank 28 is also made for fiberglass, and in system, each staving skin is coated with thermal insulation material,Prevent there is cold and hot exchange with the external world. Open piping used or enter wall coil road and be all chosen as high-quality pvc pipe, body is outer to be coveredThere are blowing agent, polyurethane, thermal insulation material. Described supply fan pipeline 10 ports are provided with filter screen, described exhaust fanPipeline 20 ports are provided with wind deflector.
The present invention considers the submersible type cool-heat-exchanger 18 and supply fan 9 and exhaust fan 19 that are placed in header box 27Between distance, and the air pressure difference that causes of the air inlet of supply fan 9 or exhaust fan 19 and air outlet place, rootTest and show factually, system, under nominal situation, can be determined according to the length of pipeline the power of supply fan and exhaust fan.Long 15 meters-20 meters of pipeline, selecting supply fan 9 power is 35W, exhaust fan 19 power are 45W. System of the present invention is totalPower consumption is greatly about 180W left and right, and wherein supply fan 9 power are 35W, and exhaust fan 19 power are 45W, the first circulationPump 33 is 60W, and the second circulating pump 36 is 60W, and system is designed with auxiliary heating dress in solar energy heating water tank in additionPut, the in the situation that of rainy for days sky or extreme climate, start. Compared with existing common air-conditioning, can using electricity wisely percentageMore than 50, environment is not caused to any pollution, meet the requirement of energy-saving and emission-reduction, take full advantage of the warm system of existing confessionCold resource. Show cistern 14 under the existing living land after Water treatment filtration according to embodiment, both can protectThe normal use amount of card fire-fighting cistern, can also supply some groups of water air-conditioning systems simultaneously.
The present invention forms water air-conditioning refrigeration system by cistern 14 under header box 27, living land and intelligent control box 1,System makes full use of the design of cistern 14 under living land in the time of refrigeration, makes the retaining cool in summer and warm in winter of leaving unused at ordinary timesObtain utilizing fully. The internal structure design of intelligent control box 1, has effectively strengthened heating or making of system of the present inventionCold ability, where necessary, can be by the working in coordination of header box 27 and intelligent control box 1, reach best refrigeration orThe effect heating.
It is with fresh air in again can holding chamber that water air-conditioning system of the present invention can solve cooling problem, by evaporation of water processHeat absorption principle lower the temperature, employing be Physical temperature-lowering method, thereby improved the quality of room air.
The above is only the preferred embodiment of the present invention, is noted that for those skilled in the art,Under the premise without departing from the principles of the invention, can also make some improvements and modifications, these improvements and modifications also should be considered asProtection scope of the present invention.
Claims (6)
1. a water air-conditioning system for header box coupling intelligent control box, is characterized in that: comprise solar energy heating water tank(26), header box (27) and intelligent control box (1); On described solar energy heating water tank (26), be connected with respectively thermal sourceOutlet pipe (31) and thermal source return pipe (32), described thermal source outlet pipe (31) is by the first electronics stop valve (34)Be connected with header box (27), described thermal source return pipe (32) connects by the first circulating pump (33) and header box (27)Connect;
Described header box (27) is connected with respectively low-temperature receiver outlet pipe (35) and low-temperature receiver return pipe (37), described low-temperature receiver water outletPipe (35) is connected with cistern under living land (14) by the second circulating pump (36), described low-temperature receiver return pipe (37)Be connected cistern under described living land (14) with cistern under living land (14) by the second electronics stop valve (24)Be communicated with filtering ponds (40), described filtering ponds (40) are communicated with fire-fighting cistern (41); At described fire-fighting cistern(41) top is provided with rain row plash, and the rainwater of collecting is entered fire-fighting cistern (41) by described rain row plashIn;
In header box (27), be provided with heat exchange auxiliary tube (4), described heat exchange auxiliary tube (4) in the mode that runs through connectionTwo ports be in communication with the outside respectively, wherein one end of described heat exchange auxiliary tube (4) and supply fan pipeline (10)One end connects, and the other end of described supply fan pipeline (10) is connected with supply fan (9), described heat exchange auxiliary tube (4)The other end be connected with one end of blast pipe (15), the other end of described blast pipe (15) accesses to intelligent control box (1)In;
In described intelligent control box (1), be provided with the first Intelligent three-way (11), rapid heating chamber (38), the second intelligenceThreeway (13) and fast-refrigerating chamber (39), the bypass end of described the first Intelligent three-way (11) and described blast pipe (15)The other end connect; The positive terminal of one side of described the first Intelligent three-way (11) is connected with one end of rapid heating chamber (38),The other end of described rapid heating chamber (38) is connected with the positive terminal of a side of the second Intelligent three-way (13); Described the first intelligenceThe positive terminal of opposite side of energy threeway (11) is connected with the one end of fast-refrigerating chamber (39), described fast-refrigerating chamber (39)The other end be connected with the positive terminal of opposite side of the second Intelligent three-way (13); The bypass of described the second Intelligent three-way (13)End is connected with one end of exhaust fan pipeline (20), and the other end of described exhaust fan pipeline (20) is drawn intelligent control box (1)Be connected with exhaust fan (19); Described supply fan (9) and exhaust fan (19) are all arranged on indoor.
2. the water air-conditioning system of a kind of header box coupling intelligent control box according to claim 1, is characterized in that:In the outside of intelligent control box (1), the first temperature sensor (3) is installed, described the first temperature sensor (3) is connected withIntelligent switch (2), is provided with tubular type ceramic heating in the rapid heating chamber (38) in described intelligent control box (1)Device (7), interior conduit air bag (21), described tubular type ceramic heating (7) is arranged on the periphery of interior conduit air bag (21),The signal output part of described the first temperature sensor (3) is connected with the signal input part of intelligent switch (2), described intelligenceThe signal output part of switch (2) is connected with the signal input part of tubular type ceramic heating (7).
3. the water air-conditioning system of a kind of header box coupling intelligent control box according to claim 1, is characterized in that:In described fast-refrigerating chamber (39), be provided with ice crystal bag water tank (28) and the second temperature sensor (12), described iceIn brilliant bag water tank (28), be provided with curved cooling tube (8), the measuring junction of described the second temperature sensor (12) passes into ice crystalIn bag water tank (28); The signal of the signal output part of described the second temperature sensor (12) and temperature detect switch (TDS) (5) is defeatedEnter end and connect, the signal output part of described temperature detect switch (TDS) (5) is connected with the signal input part of buzzer (6).
4. the water air-conditioning system of a kind of header box coupling intelligent control box according to claim 1, is characterized in that:Described heat exchange auxiliary tube (4) is serially connected with submersible type cool-heat-exchanger (18).
5. the water air-conditioning system of a kind of header box coupling intelligent control box according to claim 4, is characterized in that:Described submersible type cool-heat-exchanger (18) is rectangular box closed structure, in the vertical direction of described body structure and verticalTo some mutually penetrating tubules that distribute.
6. according to the water air-conditioning system of a kind of header box coupling intelligent control box described in claim 1,2,3 or 4, itsBe characterised in that: described blast pipe (15) is serially connected with pipe pressurizing fan (43), described pipe pressurizing fan (43) connectsThere is pressure sensor (25); The letter of the signal output part of described pressure sensor (25) and pipe pressurizing fan (43)Number input connects.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410145134.2A CN103925664B (en) | 2014-04-11 | 2014-04-11 | A kind of water air-conditioning system of header box coupling intelligent control box |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410145134.2A CN103925664B (en) | 2014-04-11 | 2014-04-11 | A kind of water air-conditioning system of header box coupling intelligent control box |
Publications (2)
Publication Number | Publication Date |
---|---|
CN103925664A CN103925664A (en) | 2014-07-16 |
CN103925664B true CN103925664B (en) | 2016-05-18 |
Family
ID=51143966
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201410145134.2A Expired - Fee Related CN103925664B (en) | 2014-04-11 | 2014-04-11 | A kind of water air-conditioning system of header box coupling intelligent control box |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN103925664B (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107990454B (en) * | 2017-10-31 | 2020-07-24 | 河南中烟工业有限责任公司 | Energy-saving air conditioning system using natural cold source |
CN112484137A (en) * | 2020-11-27 | 2021-03-12 | 沈阳易创达技术咨询有限公司 | Electricity storage type coal-to-electricity heating equipment |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2847127Y (en) * | 2005-11-15 | 2006-12-13 | 王战魁 | Solar energy ground energy comprehensive utilizing air conditioner |
CN101256015A (en) * | 2008-01-31 | 2008-09-03 | 殷宝良 | Aeration energy-saving air conditioner for closed type water well or solar water heater |
CN101551145A (en) * | 2008-03-31 | 2009-10-07 | 昆山太得隆机械有限公司 | Energy-saving air-conditioner with new wind changed by natural energy |
CN101858669A (en) * | 2010-06-11 | 2010-10-13 | 张王丹 | Water-cooled air conditioning and water heating system |
CN203203175U (en) * | 2013-06-26 | 2013-09-18 | 北京华清新源科技有限公司 | Air conditioning system |
CN203848429U (en) * | 2014-04-11 | 2014-09-24 | 东南大学 | Water air conditioner system of novel confluence box coupling intelligence control box |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20120125019A1 (en) * | 2010-11-23 | 2012-05-24 | Sami Samuel M | Self sustaining energy system for a building |
GB2505655B (en) * | 2012-09-05 | 2016-06-01 | Greenfield Master Ipco Ltd | Thermal energy system and method of operation |
-
2014
- 2014-04-11 CN CN201410145134.2A patent/CN103925664B/en not_active Expired - Fee Related
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2847127Y (en) * | 2005-11-15 | 2006-12-13 | 王战魁 | Solar energy ground energy comprehensive utilizing air conditioner |
CN101256015A (en) * | 2008-01-31 | 2008-09-03 | 殷宝良 | Aeration energy-saving air conditioner for closed type water well or solar water heater |
CN101551145A (en) * | 2008-03-31 | 2009-10-07 | 昆山太得隆机械有限公司 | Energy-saving air-conditioner with new wind changed by natural energy |
CN101858669A (en) * | 2010-06-11 | 2010-10-13 | 张王丹 | Water-cooled air conditioning and water heating system |
CN203203175U (en) * | 2013-06-26 | 2013-09-18 | 北京华清新源科技有限公司 | Air conditioning system |
CN203848429U (en) * | 2014-04-11 | 2014-09-24 | 东南大学 | Water air conditioner system of novel confluence box coupling intelligence control box |
Also Published As
Publication number | Publication date |
---|---|
CN103925664A (en) | 2014-07-16 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104728979B (en) | A kind of Renovation of air-conditioning system method and apparatus of application all-weather solar heat supply | |
CN104115706B (en) | The green house of solar phase change heat accumulator coupling air current circulation | |
CN106857110A (en) | A kind of agricultural greenhouse plant seasonal comprehensive temperature control system and temperature control method | |
CN103644670B (en) | A kind of novel solar water heater indoor heating system | |
CN206452877U (en) | A kind of solar energy-earth source heat pump environmental control of greenhouse system | |
CN105258377A (en) | Solar energy-air source heat pump based triple-generation supply device | |
CN205536294U (en) | Refrigeration and heating system that rural domestic solar water heater and well water combine | |
CN201135060Y (en) | Vegetables greenhouse using solar energy to control the temperature | |
CN103411283A (en) | Water air-conditioning system coupling cooling spray device water circulation with air current cooler | |
CN103925664B (en) | A kind of water air-conditioning system of header box coupling intelligent control box | |
CN203985265U (en) | The green house of solar phase change heat accumulator coupling air current circulation | |
CN206817589U (en) | A kind of intelligent integrated heat utilization device using a variety of natural eco-friendly power sources | |
CN103884067B (en) | A kind of water air-conditioning system that indoor heating and refrigeration are provided | |
CN205536657U (en) | Energy -conserving concurrent heating device of ground -source heat pump | |
CN203848429U (en) | Water air conditioner system of novel confluence box coupling intelligence control box | |
CN206728734U (en) | A kind of seasonal comprehensive temperature control system of agricultural greenhouse plant | |
CN205119551U (en) | Supply device based on solar energy - air source heat pump trigeminy | |
CN203880822U (en) | Indoor heating device based on solar heat collection water tank | |
CN209376399U (en) | The recycling of farm's thermal energy and heating system | |
CN210292432U (en) | Distributed energy supply system based on heat pump technology | |
CN203757935U (en) | Water air conditioning system capable of providing indoor heating and refrigerating | |
CN203823877U (en) | Novel heating radiator roller and water conditioner system thereof | |
CN203880861U (en) | Indoor refrigerating device based on ground source heat pump | |
CN103982936B (en) | A kind of Novel radiator cylinder and water air-conditioning system thereof | |
CN102788398A (en) | Household cold-warm water and gas circulation air conditioner system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160518 Termination date: 20200411 |